Application of In-situ Remediation by Using Soil Phosphate Amendments at Three Lead Contaminated Soil Sites (residential Yards) in New Orleans, LA. PDF Download
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Author: Dhary Saad Alkandary Publisher: ISBN: Category : Apatite Languages : en Pages : 396
Book Description
Lead (Pb) contamination of soil continues as a threat to public health. The problem exists, in part,due to the abundance of lead in soil in certain contexts which has the potential to cause adverse health effects in children at relatively low exposure levels. The dominant source of lead in soils in the city of New Orleans, in the older urban areas close to residences, is old deteriorated lead-based paint. A cost-effective intervention method to address the problem of lead in these soils is needed to reduce the Pb exposure risk for people in these areas. Excavation and removal of lead (Pb) contaminated soils has been widely used as a remediation technique whereby the contaminated soil is removed, transported to a suitable landfill site, and clean soil is used to replace excavated soil. However, the cost of this "dig and dump" method is high, and the availability of an appropriate landfill may be problematic. Several alternative, low-cost, and effective methods are now being used to remediate lead contaminated soils. In situ methods involve the treatment of soil in the contaminated locations. The treatment technique is based on adding a chemical stabilization agent to the soil in such manner as to immobilize the contaminants. A chemical stabilization amendment that is widely used phosphate, as it has the ability to combine with metal contaminants and form a stable mineral that is sparingly soluble, and stable in low pH conditions (such as in the human stomach). The phosphate amendment is used in lead (Pb)-contaminated soils for several reasons. Namely, it combines with soluble Pb ions in the soil to form an insoluble crystalline lead phosphate mineral (pyromorphite). Also, pyromorphite has a low solubility product (Ksp) of approximately 10−80 so remains in the soil as immobile mineral. Apatite II is a biogenic phosphate, fish bones that can be applied to soil and it has been the focus of much attention because it is inexpensive, stable under various pH conditions, and it slowly and continuously supplies sufficient amount of phosphorous to form the mineral pyromorphite. Here we propose to assess the suitability of Apatite II as an in situ soil amendment for lead in soil at urban residential sites. Specifically for the use on lead contaminated soils in New Orleans, LA. Three different sites have been chosen for this study to prove the effectiveness of Apatite II in treating lead contaminated soils. Also, other types of amendments will be used as phosphate sources and a comparison will be made between each to show the effectiveness of Apatite II to the other phosphate agents. In our study, we propose to demonstrate that not only is Apatite II an effective intervention product, but is also an environmentally acceptable agent that does not excessively leach from the soil. It was anticipated that Apatite II would be a better phosphate amendment agent than other types of phosphate. The potential problems associated with rapidly releasing phosphate agents involve phosphorus entering groundwater and then passing into standing water bodies and causing eutrophication. The work here will determine the advantage of Apatite II over other forms of phosphate agents in terms of leaching into the soil solution. In addition to evaluating the efficacy of Apatite II, the "Treat Lock and Cover" (TLC) approach that has been promulgated by the Artist Mel Chin (http://www.fundred.org/about/operationpaydirt. php), that involves capping the amended soil with clean layer of soil, is also to be tested by evaluating the action of Apatite II at depth in the soil. The advantage of TLC is that a barrier is put in place (the clean capping soil) for the time period over which conversion of the soil Pb to a sparingly soluble form occurs. The principal idea of the study is to demonstrate that Apatite II can be presented as clean-up "method of choice" for lead contaminated soils in urban areas. By demonstrating this, we also propose to show that Apatite II can be used as a remediation agent on a large urban scale as there is a recognized need for city wide remediation of lead contaminated soils in cities like New Orleans, LA.
Author: Dhary Saad Alkandary Publisher: ISBN: Category : Apatite Languages : en Pages : 396
Book Description
Lead (Pb) contamination of soil continues as a threat to public health. The problem exists, in part,due to the abundance of lead in soil in certain contexts which has the potential to cause adverse health effects in children at relatively low exposure levels. The dominant source of lead in soils in the city of New Orleans, in the older urban areas close to residences, is old deteriorated lead-based paint. A cost-effective intervention method to address the problem of lead in these soils is needed to reduce the Pb exposure risk for people in these areas. Excavation and removal of lead (Pb) contaminated soils has been widely used as a remediation technique whereby the contaminated soil is removed, transported to a suitable landfill site, and clean soil is used to replace excavated soil. However, the cost of this "dig and dump" method is high, and the availability of an appropriate landfill may be problematic. Several alternative, low-cost, and effective methods are now being used to remediate lead contaminated soils. In situ methods involve the treatment of soil in the contaminated locations. The treatment technique is based on adding a chemical stabilization agent to the soil in such manner as to immobilize the contaminants. A chemical stabilization amendment that is widely used phosphate, as it has the ability to combine with metal contaminants and form a stable mineral that is sparingly soluble, and stable in low pH conditions (such as in the human stomach). The phosphate amendment is used in lead (Pb)-contaminated soils for several reasons. Namely, it combines with soluble Pb ions in the soil to form an insoluble crystalline lead phosphate mineral (pyromorphite). Also, pyromorphite has a low solubility product (Ksp) of approximately 10−80 so remains in the soil as immobile mineral. Apatite II is a biogenic phosphate, fish bones that can be applied to soil and it has been the focus of much attention because it is inexpensive, stable under various pH conditions, and it slowly and continuously supplies sufficient amount of phosphorous to form the mineral pyromorphite. Here we propose to assess the suitability of Apatite II as an in situ soil amendment for lead in soil at urban residential sites. Specifically for the use on lead contaminated soils in New Orleans, LA. Three different sites have been chosen for this study to prove the effectiveness of Apatite II in treating lead contaminated soils. Also, other types of amendments will be used as phosphate sources and a comparison will be made between each to show the effectiveness of Apatite II to the other phosphate agents. In our study, we propose to demonstrate that not only is Apatite II an effective intervention product, but is also an environmentally acceptable agent that does not excessively leach from the soil. It was anticipated that Apatite II would be a better phosphate amendment agent than other types of phosphate. The potential problems associated with rapidly releasing phosphate agents involve phosphorus entering groundwater and then passing into standing water bodies and causing eutrophication. The work here will determine the advantage of Apatite II over other forms of phosphate agents in terms of leaching into the soil solution. In addition to evaluating the efficacy of Apatite II, the "Treat Lock and Cover" (TLC) approach that has been promulgated by the Artist Mel Chin (http://www.fundred.org/about/operationpaydirt. php), that involves capping the amended soil with clean layer of soil, is also to be tested by evaluating the action of Apatite II at depth in the soil. The advantage of TLC is that a barrier is put in place (the clean capping soil) for the time period over which conversion of the soil Pb to a sparingly soluble form occurs. The principal idea of the study is to demonstrate that Apatite II can be presented as clean-up "method of choice" for lead contaminated soils in urban areas. By demonstrating this, we also propose to show that Apatite II can be used as a remediation agent on a large urban scale as there is a recognized need for city wide remediation of lead contaminated soils in cities like New Orleans, LA.
Author: Jose T. V. S. de Albergaria Publisher: CRC Press ISBN: 1498743625 Category : Nature Languages : en Pages : 175
Book Description
Soil contamination represents a serious environmental problem and requires an immediate action plan to be prepared for typical and emergent contaminants. This book provides an overview of some remediation technologies, both traditional and emergent, as well as case studies based on the contribution from academia and service providers. Several soil
Author: Publisher: Noyes Publications ISBN: 9780815512639 Category : Science Languages : en Pages : 533
Book Description
State of the art information on in situ treatment technologies for hazardous waste-contaminated soils is presented. Describes for each technology: wastes amenable to treatment, ease of application, potential level of treatment available, reliability, secondary impacts and equipment and reagents required.
Author: Matthew Robert Baker Publisher: ISBN: Category : Languages : en Pages : 154
Book Description
Uranium (U) contamination is a major environmental problem associated with the mining and processing of nuclear materials for both weapons and power production. When possible in situ soil remediation techniques are preferable for reducing the risk associated with diffuse low-level U contamination. Uranium is known to form sparingly soluble phosphate compounds that persist in the environment. Therefore, batch experiments were performed to evaluate the efficacy of three phosphate amendments, hydroxyapatite (HA), sodium phytate (IP6) and sodium tripolyphosphate (TPP), to immobilize U in contaminated sediments. The amendments were added at equivalent phosphorus (P) concentrations and then equilibrated under a range of test conditions, with changes in soluble U and P-total monitored at pre-set time intervals. Only HA was effective at reducing soluble U when compared to the control, with IP6 and TPP increasing soluble U. After equilibration, changes in contaminant partitioning in the amended sediments was evaluated using operational extraction methods.
Author: National Research Council Publisher: National Academies Press ISBN: 030909447X Category : Science Languages : en Pages : 371
Book Description
At hundreds of thousands of commercial, industrial, and military sites across the country, subsurface materials including groundwater are contaminated with chemical waste. The last decade has seen growing interest in using aggressive source remediation technologies to remove contaminants from the subsurface, but there is limited understanding of (1) the effectiveness of these technologies and (2) the overall effect of mass removal on groundwater quality. This report reviews the suite of technologies available for source remediation and their ability to reach a variety of cleanup goals, from meeting regulatory standards for groundwater to reducing costs. The report proposes elements of a protocol for accomplishing source remediation that should enable project managers to decide whether and how to pursue source remediation at their sites.
Author: John Stephen Weber Publisher: ISBN: Category : Languages : en Pages : 104
Book Description
A diverse suite of research has focused on the immobilization of lead (Pb) compounds in soil through the application of phosphate-based amendments that create insoluble Pb compounds. Water quality threats associated with the phosphorus (P) remediation technology are a concern, particularly near riparian areas. This study investigated P fertilizer application rates on metals and P loss via surface runoff following P application to a lead contaminated alluvial soil. Soil was treated with Triple Super Phosphate (TSP) at differing molar ratios of P to Pb: 0:1 (control); 4:1; 8:1; and 16:1. Effluents from treated soils were collected during rainfall simulation (RFS) events at six months and one year post-treatment and analyzed for total and dissolved P and Pb loss. At elevated P treatment levels (8:1, 16:1 P:Pb), P and total Pb concentrations were significantly greater (p
Author: Dhary Saad Alkandary
Author: Dhary Saad Alkandary
Author: 
Author: Jose T. V. S. de Albergaria
Author: 
Author: Matthew Robert Baker
Author: National Research Council
Author: 
Author: Laura Atuah
Author: John Stephen Weber
Author: